Oxidative Transformation of Antimicrobial Compounds by Ferric-Modified Montmorillonite

Liyanapatirana, Chamindu

06 August 2011

The presence of wide spectrum antimicrobial agents triclosan (TCS) and triclocarban (TCC) in the environment has become a concern due to the adverse impact on the environment. Montmorillonite, a widely distributed clay mineral in the natural environment, has been used as an obstacle in landfills to avoid contamination of soil and water by contaminants in leachates due to its high surface area, cation exchange capacity, and abundance. The research reported here focuses on understanding the abiotic oxidative transformation of TCS and TCC by Fe(III)-modified montmorillonite. The overall objectives of this work were: 1) to investigate TCS and TCC oxidative transformation kinetics and transformation products in different environmental conditions, and 2) to elucidate their reaction pathways. TCS was reacted with Fe(III)-modified montmorillonite under the following experimental conditions: 1) at 40% relative humidity and room temperature for up to 100 d with and without UV light exposure; and 2) in aqueous environment with different initial TCS concentrations, light exposure, pH levels, and in the presence of natural organic matters. Reaction in the presence of Na- montmorillonite was conducted for comparison with results from TCS reaction in the presence of Fe(III)-modified montmorillonite. In addition, transformation of TCS in the presence of other types of minerals was also investigated. Transformation of TCC on Fe(III) and Na-montmorillonite in an aqueous environment with and without exposure to light was also studied at different initial TCC concentrations. TCS and TCC transformation products were a) characterized using LC/MS, GC/MS, and computational modeling, and b) quantified using HPLC/UV and GC/MS. The main TCS transformation products were 2,4-dichlorophenol, 2,4-dichlorophenol dimer, chlorophenoxy phenols and, TCS dimers and trimers. 2,8-dichlorodibenzo-p-dioxin was identified under UV light and the sun simulator experiments. Formation of 4-chloroaniline and 3,4-dichloroaniline were confirmed as transformation products of TCC. To the best of our knowledge, this is the first time that 4-chloroaniline and 3,4-dichloroaniline were confirmed as abiotic transformation of TCC. This research has generated a better understanding of the abiotic environmental fate of TCS and TCC and demonstrates the feasibility of utilizing Fe(III)-modified montmorillonite as remediation material for TCS, TCC and other related pharmaceutical and personal care products (PPCPs).

Ferric modified montmorillonite

Antimicrobial compounds

Oxidative transformation

Modulation of Inflammation and Oxidative Stress in Canine Chondrocytes

Dycus, David L

15 December 2012

Little research has focused on the involvement of oxidative stress as it relates to the pathophysiology of osteoarthritis (OA); while inflammation has been extensively studied. The present study evaluates the ability to modulate the response of canine chondrocytes to both inflammation and oxidative stress in an in-vitro model. Chondrocytes were incubated and then stimulated to under-go oxidative stress by using hydrogen peroxide or inflammation using interleukin-1 beta and tumor necrosis factor alpha. For inhibition of oxidative stress an antioxidant, N-acetyl-cysteine, was used prior to induction with hydrogen peroxide in a subset of chondrocytes. Measures of oxidative stress were superoxide dismutase and reduced glutathione. Prostaglandin E2 was used as a measurement of inflammation. Chondrocytes responded appropriately to both oxidative stress and inflammation. The antioxidant N-acetyl-cysteine provided adequate protection against oxidative stress. Oxidative stress and inflammation should be considered to play a role in the pathophysiology of canine OA.

canine

chondrocyte

oxidative stress

inflammation

osteoarthritis

Formation of Oxidative-Stress Resistant Phenotypes of Listeria Monocytogenes Serotypes 1/2A and 4B and their Stability at 37oC and 4oC

De Abrew Abeysundara, Piumi

14 December 2013

The purpose of this study was to induce an oxidative-stress adaptation in Listeria monocytogenes Bug600 (serotype 1/2a) and F1057 (serotype 4b) by pre-exposing to sublethal H2O2 and alkali-stress either singly or sequentially. Our findings show that the sequential pre-exposure of cells to pH 9 for 30 min treatment followed by 50 ppm H2O2 for 30 min at 37°C yielded the highest oxidative-stress resistant phenotypes of L. monocytogenes Bug600 and F1057. The sublethal H2O2 and sublethal alkali-stress induced oxidative-stress adaptations were completely reversible within 60 min at 37°C in the absence of such sublethal stress. However, the oxidative-stress adaptation induced at 37°C was stable at 4°C over a 24 h test period in both L. monocytogenes Bug600 and F1057. Future studies will focus on the potential cross-resistance of oxidative-stress adapted L. monocytogenes serotypes 1/2a and 4b to commonly used disinfectants and GRAS antimicrobials.

Alkali stress

oxidative stress

Listeria monocytogenes

RELATIONSHIP BETWEEN OXIDATIVE STRESS AND COMBINED ORAL CONTRACEPTIVE USE IN WOMEN WITH BIPOLAR DISORDER

Lenchyshyn, Jessica

17 November 2014

Background: The objective of this thesis was to measure oxidative stress (OS) in women with Bipolar Disorder (BD) who used combined oral contraceptives (OCU). Based on our literature review, it was predicted that OCU would increase OS levels relative to non-contraceptive users (NCU) in women. Methods: Thirty-five participants (BD n=25; Control n=10) were recruited from an ongoing study based in British Columbia ‘The Systematic Treatment Optimization Program in Early Mania.’ Participants were administered psychological screening tools (Young Mania Rating Scale (YMRS), Montgomery-Åsberg Depression Rating Scale, Mini International Neuropsychiatric Interview and Hamilton Depression Rating Scale) and provided a blood sample for the assays (Lipid Hydroperoxide (LPH), Protein Carbonylation, 4-Hydroxynonenal, 3-Nitrotyrosine (3-NT) and 17-Beta Estradiol). Results: In our primary analysis we did not find differences in OS between BD and controls relative to OCU. Within our remaining analyses, only BD women (n=17) and who gave smoking status were included. We found 3-NT to be increased in OCU compared to NCU (F (1, 12) = 5.639, p = 0.035). With respect to mood stabilizer use, 3-NT was increased in OCU relative to NCU (F (1, 10) = 6.33, p=0.031). As for atypical antipsychotics, 3-NT was heightened in OCU adjunctive users compared to NCU who did not use atypical antipsychotics (F (3, 10) = 4.822, p = 0.025). As for our correlation analyses, YRMS correlated with 3-NT and LPH in OCU BD women (r(11)= 0.711, p=0.014 and r(11) = 0.676, p=0.022, respectively) and 17-Beta Estradiol correlated with LPH (r(17) = 0.598, p = 0.001). Our results are preliminary and are limited by our small sample size and various other factors (i.e. controls). Conclusion: The association between hormones and oxidative stress still remains controversial. Here we showed, after controlling for smoking, BMI and age the use of a COC significantly increased 3-NT in women with BD. Moreover, hormones may influence the relationship between OS and mood episodes. / Thesis / Master of Science (MSc)

Oxidative Stress

Combined Oral Contraceptive

Bipolar Disorder

Study of Preventing Oxidative Degradation of Monoethanolamine, and Benzene Adsorption onto Tetraethylenepentamine-impregnated Silica Surface

Wilfong, Walter Christopher

26 August 2010

No description available.

Engineering

oxidative degradation

monoethanolamine

benzene adsorption

silica

The Role Of Mitochondrial Omi/htra2 Protease In Protein Quality Control And Mitophagy

Ambivero, Camilla

01 January 2013

Omi/HtrA2 is a mitochondrial serine protease with a dual and opposite function depending on its subcellular localization. Most of the previous studies focused on Omi/HtrA2’s pro-apoptotic function when the protein is released to the cytoplasm. It is becoming apparent that the main function of Omi/HtrA2 is within the mitochondria, where it has a pro-survival role. However, its mechanism is still poorly understood. To this end, we used the yeast two-hybrid system to dissect the Omi/HtrA2 pathway by identifying novel interactors and substrates. Our studies revealed a novel function of Omi/HtrA2 in the regulation of a deubiquitinating (DUB) complex. In addition we found that Omi/HtrA2 participates in mitophagy by regulating Mulan E3 ubiquitin ligase, which recruits GABARAP (gamma-amino-butyric acid receptor-associated protein) to the mitochondria. Abro1 is the scaffold protein of the DUB complex known as BRISC (BRCC36 isopeptidase complex) that is specific for Lys-63 deubiquitination. This complex is similar to the BRCA-1 complex, a known and important player in DNA damage response. Using the yeast two-hybrid screen and a bait consisting of the unique carboxy-terminus of the Abro1 protein, we identified three transcription factors which are members of the activating protein 1 (AP-1) family, namely ATF4, ATF5 and JunD. The AP-1 family member ATF4 is ubiquitously expressed, like Abro1, and important in cell cycle regulation and survival, thus we further analyzed this interaction. Abro1’s interaction with ATF4 was specific and present only when cells are under cellular stress. When Abro1 protein level is increased it provides protection against stress-induced cell iv death, but interaction between Abro1 and ATF4 is necessary to achieve this protection. The significance of this interaction was the translocation of Abro1 from the cytoplasm to the nucleus. These results establish a new cytoprotective function of cytoplasmic Omi/HtrA2 as a regulator of the BRISC DUB complex. Under normal conditions Omi/HtrA2 is localized in the intermembrane space (IMS) of the mitochondria. We have recently identified that the mitochondrial Mulan E3 ubiquitin ligase is a substrate of Omi/HtrA2 protease. Mulan, along with MARCH5/MITOL and RNF185, are the only three mitochondrial E3 ubiquitin ligases identified thus far. The function of Mulan has been linked to cell growth, cell death and autophagy/mitophagy. In addition, we showed that Omi/HtrA2, through regulation of the Mulan protein level, controls mitophagy, especially during mitochondrial stress. To understand Mulan’s function and its control by Omi/HtrA2, we set out to identify E2 conjugating enzymes that form a complex with Mulan E3 ligase. We isolated four specific interacting E2’s, namely Ube2E2, Ube2E3, Ube2G2 and Ube2L3. To identify substrates for each unique Mulan-E2 complex we used fusion baits in a second yeast two-hybrid screening. One of the interactors isolated against the Mulan-Ube2E3 bait was the GABARAP protein, a member of the Atg8 (autophagy) family. The mammalian Atg8 family is composed of seven members that have been linked to important roles in autophagy/mitophagy. We characterized this interaction both in vitro and in vivo and its role in mitophagy. Our results suggest that Mulan participates in various pathways, depending on the nature of its partner E2 conjugating enzyme. In addition, we identified the pathway by which Mulan participates in mitophagy by recruiting GABARAP to the mitochondria. v I want to dedicate this hard work to the people who mean the most to me, the people who have been more than supportive in these past five years; they are my very small, but very loud and loving, family. My brother Raffaello has always been proud of me and always told his friends how his sister was a "doctor." My father, Alvaro, always told me I had to be better than him, a man who has a master’s degree in chemistry. Finally, but most importantly to me, I want to dedicate this work and degree to my mother, Maria Aparecida Troncon, a woman who is like no other. She has always supported me, and with small gestures like having snacks ready when I came to visit after work or coming with me to lab on the weekends so I would not be alone, she told me every day that she was proud of me. Every time she met someone she told them I was her doctor and she said it with the biggest smile on her face. Unfortunately she passed away on December 17th, 2012, just months shy of the completion of my degree. I remember how proud she was when I received my bachelor’s and I can only imagine the size of her smile when I walk across the stage this time as a Ph.D. I love you mom, you are my rock and my strength; without your constant support and dedication I would have not reached this point. I know you are smiling at me from above. Last but not least I want to dedicate this to the man who is my better-half. Thank you for all your love and support, Guillermo. I love you.

Apoptosis

ubiquitination

mitophagy

oxidative stress

Molecular Biology

The Effects of Carbohydrate and Quercetin on Team Sport Athletic Performance and Exercise-Induced Inflammation and Oxidative Stress

Abbey, Elizabeth Lea

07 May 2009

Over 270 million people play soccer worldwide, and its popularity grows every day. In team sport exercise, fatigue may result from numerous factors including limited fuel, depleted energy stores and production of compounds that promote an inflammatory response. While inflammation is an essential mechanism for repairing damaged muscle tissue with exercise, prolonged inflammation leads to increased production of reactive oxygen species that can damage cell membranes, muscle, and signaling proteins. To prevent this response and improve performance, athletes are increasingly looking to nutritional interventions. Carbohydrate and antioxidant supplementation have both shown evidence of producing an ergogenic effect and attenuating inflammation and oxidative stress with prolonged endurance exercise. Less is known about how these interventions may influence intermittent, high-intensity exercise characteristic of soccer. In particular, this exercise presents a unique challenge in that opportunities for nutrient intake are limited to pre-game and half-time. In our first study, we had 10 male collegiate soccer players perform a 90-min. soccer-simulation test, that we developed, which was followed by a progressive shuttle run (PSR) test to exhaustion. They consumed a honey-sweetened beverage (H), a sports drink (S), or a placebo (P) before and half-way through the protocol. Both H and S provided 1.0 g·kg⁻¹ carbohydrate and ~17.6 mL·kg⁻¹ total volume for each trial. Overall, the test resulted in increased fatigue and production of inflammatory markers and antioxidant capacity. There was no significant difference between treatments for any performance measure. Mean times for a high intensity run and rating of perceived exertion increased with time, and there was an overall decrease in PSR time compared to baseline (-22.9%). There was a rise in glucose (15.6%), IL-6 (548%), IL-1ra, IL-10 (514%) and ORAC (15%) post-test but no change in cortisol. Insulin was significantly lower by 1 h-post. IL-1ra levels increased post-test for H (25.8%), S (65.5%), and P (63.9%), but the change for H was less than the other treatments. No treatment effects for the other blood measures were observed. The lack of an ergogenic effect of carbohydrate on soccer performance calls into question the benefit of supplementation at a frequency typical of a regulation soccer match in highly trained athletes with adequate energy stores. Since acute carbohydrate ingestion in the first study did not attenuate some markers of inflammation (e.g. IL-6), we chose to focus on an alternative theory for the rise in inflammatory markers with strenuous exercise in our second study. One aspect of soccer, repeated sprinting, results in increased ROS production partially through the activation of the enzyme xanthine oxidase (XO). Quercetin, a flavonol in plants that has shown some ergogenic effects with endurance exercise, inhibits XO in vitro. The effect of quercetin on team sport exercise had not been studied. We gave recreationally active males a commercial sports drink (S) or S + 500 mg of quercetin (Q) 2x/d for 1 wk prior to a repeated sprint test (RST). Sprint times increased (5.9%) for both treatments as did plasma XO activity (47%), IL-6 (77%), and uric acid (25%) from pre-test to post-test. Q supplementation did not attenuate plasma XO activity or IL-6 and actually increased one calculated index of fatigue, percent fatigue decrement (5.1%- Q and 3.8%- P). These findings add to the growing body of literature that quercetin supplementation does not attenuate exercise-induced inflammation and oxidative stress in vivo. Collectively, this research has practical implications for sports drink companies who are exploring the use of flavonoid compounds in product formulation. Specifically, they should reconsider adding quercetin to their beverages if they are marketing to team sport athletes. Also, soccer players should be made aware that, at ingestion frequencies typical of a soccer match, they may not expect a significant performance benefit from acute carbohydrate supplementation. / Ph. D.

oxidative stress

inflammation

quercetin

cytokines

honey

soccer

H2O2-mediated oxidation and nitration enhances DNA binding capacity / DNA repair via up-regulated epidermal wild-type p53 in vitiligo.

Salem, Mohamed M.A.

January 2009

The entire epidermis of patients with vitiligo exhibits accumulation of up to 10-3M concentrations of hydrogen peroxide (H2O2) (Schallreuter, Moore et al. 1999). Over the last decade our group and others have focused on the effect of H2O2-mediated oxidative stress on the function of many proteins and peptides due to oxidation of target amino acid residues in their structure including L-methionine, L-tryptophan, L-cysteine and seleno cysteine (Rokos, Beazley et al. 2002; Gillbro, Marles et al. 2004; Hasse, Kothari et al. 2005; Schallreuter, Chavan et al. 2005; Spencer, Chavan et al. 2005; Chavan, Gillbro et al. 2006; Elwary, Chavan et al. 2006; Gibbons, Wood et al. 2006; Schallreuter, Bahadoran et al. 2008; Shalbaf, Gibbons et al. 2008; Wood, Decker et al. 2009). Moreover, it was shown that patients with vitiligo possess up regulated wild type functioning p53 protein in their skin (Schallreuter, Behrens- Williams et al. 2003). The reason behind this up regulation has remained unclear (Schallreuter, Behrens-Williams et al. 2003). Therefore the aim of this thesis was to get a better understanding of these puzzling data. Along this project different techniques have been used including Western blot, dot blot, immuno precipitation, immuno fluorescence, EMSA and computer modelling. In this thesis we confirmed the previous result on up regulation of p53 in vitiligo and we showed that p90MDM2, the master regulator for p53 protein is not different in patients and healthy controls. Therefore we decided to test for expression of p76MDM2 which mediates the inhibition of p90MDM2-p53 binding. Our results show for the first time the presence and over expression of p76MDM2 protein in vitiligo compared to 3 healthy individuals. This result could provide an explanation, why up regulated p53 is not degraded in this disease. Since epidermal H2O2 accumulation has been extensively documented in vitiligo, we wanted to know whether other ROS could also contribute to the overall oxidative stress in this scenario. Therefore we turned our interest to nitric oxide (NO) and its possible effects on p53 protein. In order to elucidate this role in more detail, the expression levels of epidermal nitric oxide synthesase (iNOS) and the oxidation product of NO and O2 - i.e peroxynitrite (ONOO-) were investigated. Our data revealed over expression of iNOS and nitrated tyrosine residues, the foot print for ONOO-. Moreover, we show for the first time the presence of abundant nitration of p53 protein in vitiligo. In addition using purified p53 from E. coli strain (BL21/DE3) and mutant p53 protein from HT-29 cells (colon cancer cells), we show that nitration takes place in a dose and time dependent manner. On this basis we investigated the effect of both H2O2 and ONOO- on p53-DNA binding capacity employing EMSA, since this is the most acceptable technique to follow the binding between proteins and DNA. Our results revealed that ONOO- abrogated p53-DNA binding capacity at concentrations >300 ¿M, meanwhile oxidation of p53 protein with H2O2 at the same concentrations does not affect binding capacity. Importantly, a much higher p53- DNA binding capacity was observed after exposure to both ONOO- and H2O2. Taken together, p53 is regulated by both ROS (H2O2) and RNS (ONOO-). Next we identified the presence of phosphorylated and acetylated p53 in vitiligo. Phosphorylation of ser 9 and ser 15 residues of the protein are associated with over expressed ATM protein kinase, while acetylation of lys 373, 382 residues correlates with increased PCAF expression. We show that up regulated p53 is associated with over expressed p21 (cyclin dependent kinase inhibitor 1) and induced PCNA 4 expression. Hence, we can conclude that p53 in patients with vitiligo is up regulated, activated and functional. Finally we show up regulated BCL-2 supporting the long voiced absence of increased apoptosis in vitiligo. Given that patients with vitiligo have no increased risk for solar induced skin cancer and increased photo damage (Calanchini-Postizzi and Frenk 1987; Westerhof and Schallreuter 1997; Schallreuter, Tobin et al. 2002), despite the presence of increased DNA damage as evidenced by increased 8-oxoG levels in the skin and in the plasma, our findings suggest that both p53 and PCNA provide a powerful machinery to mediate DNA repair via hOgg1, APE1 and DNA polymerase ß (Shalbaf 2009). On this basis it is tempting to conclude that DNArepair is the overriding mechanism to combat oxidative stress in this disease. / Egyptian government; Institute for Pigmentary Disorders in association with the EM Arndt University of Greifswald, Germany.

Vitiligo

Oxidative stress

Hydrogen peroxide

DNA repair

Structure and Reactions of Some Sulphides and Selenides of Phosphorus and Arsenic

Christian, Beverley Howard

07 1900

<p> A continuation of studies of main group compounds carried out in this laboratory has led to the investigation of the structural and oxidative chemistry of several compounds and mixtures of the elements phosphorus, arsenic, sulfur and selenium. A number of questions and a lack of data regarding known compounds of these elements lead to an examination of the series P4-X^AsX^S3-Y^SeY, X = 0-4, Y = 0-3. Raman spectra of several members of the series have been recorded. The 31P and natural abundance 77Se nmr spectra of these compounds were also recorded, including a reinvestigation and complete assignment of the 31P nmr spectrum of P4Se3 . Several trends in the coupling constants and chemical shifts were noted and an empirical equation was devised for the 31P nmr spectral assignments for quaternary members of the series. The compound formerly believed to be P2As2S3 was shown to be PAs3S3. The crystal structure of an occupationally disordered crystal of stoichiometry P2As2S3 is also reported in this thesis.</p> <p> The compound As4S4 and 1:1 As:Se fused mixtures were separately oxidized with the Lewis acids AsF5 and SbF5 to produce the new cations As3S4+ and As3Se4+. The cations were characterized as the salts As3S4 (AsF6), As3S4 (SbF6), As3Se4 (AsF6 ) and As3Se4 (SbF6) by Raman spectroscopy and infrared spectroscopy. The determination of the crystal structures of the first three salts is also reported.</p> <p> Reactions of As4S4 with PF5, PCl5, BCl3, SO3, NbF5 , TaF5 and WF6 were shown to not proceed or, in the case of PF5, to not produce a stable adduct. The action of AsF5 on compounds and mixtures of heavy main group elements (e.g., Sb2Te3) of groups V and VI produced no new compounds that were identified and generally just gave known homo-polyatomic cations of the chalcogens.</p> <p> Oxidation of As4S4 with the halogens (X) chlorine and bromine produced AsX3 and S2X2 while the reaction of SbCl5 with As4S4 or 1:1 As:Se fused mixtures produced SbCl3, AsCl3 and the salts SCl3 (SbCl6) and SeCl3 (SbCl6),respectively. The crystal structure of SCl3 (SbCl6) is reported here along with unit cell data for SeCl3 (SbCl6) and SBr1.2Cl1.8 (SbCl6) and the Raman data for all three compounds. Only AsSI was produced by the oxidation of As4S4 by I2 in SO2 while a reaction between molten P4Se3 and I2 gave the new compound αP4Se3I2. Raman spectra for both AsSI and αP4Se3I2 were recorded as well as the 31P nmr spectrum for the latter.</p> / Thesis / Doctor of Philosophy (PhD)

Studies of Energy Transfer Processes in Mammalian Mitochondria

Vigers, Gary Alexander

09 1900

<p> The present investigation was concerned with mitochondrial energy transfer reactions and their relationship to mitochondrial structural integrity. Experiments with azide demonstrated a close relationship between oxidative phosphorylation and large amplitude mitochondrial volume changes. Azide inhibited energy transfer and energy-linked mitochondrial swelling by competing with adenine nucleotide for a site on the terminal phosphorylating enzyme. As a permeant anion azide exerted secondary effects on mitochondrial structure and function.</p> <p> Experiments with mitochondria treated with phlorizin and phloretin emphasized the importance of Mg++ as a controlling factor in maintaining the integrity of mitochondrial energy transfer processes. The results indicated that these compounds interfered directly with oxidative phosphorylation, and that mitochondrial swelling was either a consequence of impaired energy transfer, or a separate phenomenon.</p> / Thesis / Doctor of Philosophy (PhD)